JP2000148310A - Selective power source supply system for portable information equipment - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a power source supply system for portable information equipment capable of dealing with a new high functioning system, effectively utilizing a resource, and contributing to the environmental protection of the earth. SOLUTION: A power source supply system part 12 for controlling power source supply to each kind of function 6, 7 and 8 provided at a portable electronic equipment 1 is provided with an FET control circuit 14 for reading each power source capacity of each power source resource 2, 3 and 4 for the portable electronic equipment, and for making selectable available functions according to the power source capacity of each kind of function 6, 7 and 8 provided at the portable electric equipment 1.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a selective power supply system, and more particularly, to a power supply system for an external power source of a portable electronic device such as a portable personal computer.

[0002]

2. Description of the Related Art Conventionally, a power supply system for a portable information device such as a portable personal computer has been developed in the direction of suppressing the supplied power so that the power supply system is small and can be used for a long time. Was.

[0003]

However, a portable personal computer has recently been provided with an FD drive, a CD drive, or the like, and has been made attachable to the portable personal computer as an extension unit. In some cases. Since the required power to be supplied increases with the recent advancement of functions, development of a large-capacity power source has also been performed.

In such a case, a conventional power source having only a small amount of power cannot cope with a new high-performance system, so that resources have not been effectively used. in addition,
In recent years, effective use of resources has been demanded for environmental protection of the earth.

A main object of the present invention is to provide a power supply system which can solve the above-mentioned problems, can cope with a new high-performance system, effectively utilizes resources, and contributes to environmental protection of the earth. is there.

[0006]

Means for Solving the Problems In order to solve the above problems, the present invention takes the following means.
That is, a power supply system unit that controls power supply to various functions provided in the portable electronic device according to claim 1 reads each power supply capacity of each power supply resource for the portable electronic device, A control circuit is provided which enables selection of usable functions in accordance with the power supply capacity of various functions provided in the portable electronic device.

According to a second aspect of the present invention, a power supply resource for a portable electronic device is provided with a storage unit for storing information on a power supply capacity of each of the power resources for the portable electronic device. A power supply system unit for controlling power supply to various functions provided in the portable electronic device; a storage information reading unit for reading each power supply capacity of each power supply resource stored in the storage unit; A control circuit that allows selection of usable functions in accordance with the power supply capacity of the power supply system unit, between the control circuit and the various functions of the power supply system unit, according to the selection of the control circuit, A switching transistor for turning on / off the power supply to the function is provided.

In short, the present invention is characterized in that a circuit for reading a power supply capacity and selecting a function to be used according to the power supply capacity is provided in a power supply system portion of the portable notebook PC.

[0009]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 shows the configuration of a power supply system for a portable personal computer according to the present invention. As shown in FIG. 1, an adapter or a battery, which is a power source resource for a portable electronic device, is externally connected as a power source resource of a portable personal computer. The power supply circuit is configured to supply necessary functions as a system.

According to the present invention, ID information in which power capacity information is stored in an adapter or a battery is incorporated, and a portable personal computer has a function of reading the ID information and an FET control for controlling power supply for each function. A system controller with built-in functions is provided. This system controller reads the ID information from the power supply resource to determine the power supply capacity that can be supplied from outside,
An operation of controlling power supply for each function of the system according to the power supply capacity is executed.

Therefore, an effect is obtained in which a power source having only a small power capacity (such as an AC adapter or a battery) is connected, and a partial function can be used in a system requiring a large capacity as a whole. Referring to FIG. 1, a portable personal computer 1 as a system configuration example of the present invention
And an external power source are shown. Adapter A2 and battery (B) 3 or battery (C) as the external power source
4 as an example. These power sources have ID information in which power supply capacity that can be supplied is stored.

The functions of the portable personal computer 1 include a basic system 5 composed of functions necessary for the system to operate at a minimum and an extended or additional function. In this example, an additional power supply capable of independently supplying power is provided. (A) 6, function (B) 7, function (C) 8
Having.

The portable personal computer 1 has an adapter connector 10 and a battery connector 11 as an interface of a power source, and the power enters the power supply circuit 9 via them and is converted to a power level required by the system. It is supplied to functions inside the system. In other words, a power supply control IC for each of the basic system 5 and the additional function from the power supply circuit (the most common FE as a power supply control IC)
T, power is supplied to a power control IC (hereinafter referred to as an FET), and functions A6, B7, C8
Are supplied to the FET (A) 15 and the FET (B) 1
6. Supplied only when the FET (C) 17 is ON. This FET (A) 15, FET (B) 16, FET (C)
The ON / OFF control of 17 is performed by the FET control circuit 14 inside the system controller 12. This FET
The control is controlled according to the power capacity of the connected power source. The power capacity can be determined by reading the ID information from the power source using the ID reading circuit 13 inside the system controller 12.

Although the method of reading the ID information is not specified, in the present embodiment, two ID signals are assigned to the interface of the power source as the power capacity identification signal.
Determine the power capacity of the power source. At this time, if the power supply capacity of the power supply source is lower than the power supply capacity required for the entire system, additional functions cannot be used, that is, the system can be operated by partially not supplying power.

In this embodiment, the basic system 15 W and the function (A) are used as the power required for each function of the system.
6 is 10 W, function (B) 7 is 10 W, function (C) 8 is 5
W, and a total of 40 W of power is required.

In the prior art, when 40 W of power is required for the entire system, the system cannot operate without a 40 W power source. In the present invention, the minimum power required to operate as a system, that is, the power of the basic system 5 (1 in this example).
If a power source capable of supplying 5 W) or more is connected, the system can be partially operated. In the embodiment, the power source capacity of the power source is 40 W for the adapter A2 and the battery (B) 3
Is 30 W and the battery (C) 4 is 20 W, an operation in which a usable function is changed in a case where each power source is connected.

The operation of the device shown in this embodiment will be described. First, the function corresponding to the power supply capacity will be described with reference to FIG. Here, it is shown that the total power of the available functions is the same as the power capacity of the connected external power source, and the operation will be described using a specific example in each case.
FIG. 3 shows a correspondence table of signals for determining the power capacity of the external power source.

Hereinafter, specific examples of each case will be described, and a description will be given in association with general functional examples of a portable personal computer. Here, function (A) 6 is a DVD drive, function (B) 7 is a PC card slot, and function (C) 8 is US
Assume B port. As case 1, adapter 2 (4
0W) is connected to the portable personal computer 1 with reference to FIG. First, in order to determine the capacity of the power source connected to the system controller 12, the ID of the power source is read using the ID information reading circuit 13. Adapter 2 has ID0: 0, ID
The system controller 12 having the ID information of 1: 0 and reading the ID information determines the connected external power source as the power capacity of 40 W based on the power capacity correspondence table of FIG.
In this case, power can be supplied to all functions since the power capacity of the entire system is 40 W. Therefore, power control corresponding to each function is performed based on the function correspondence table corresponding to the power capacity in FIG.

In this case, the system controller 12
ET (A) 15 ON, FET (B) 16 ON, FE
T (C) 17 is set to ON, power is supplied to all functions, all functions become available, and the system can operate.

Next, as a case 2, a battery (B) 3 (3
0W) is connected to the portable personal computer 1 with reference to FIG. First, the ID of the power source is read using the ID information reading circuit 13 in order to determine the capacity of the power source to which the system controller 12 is connected. Battery (B) 3 has ID0: 0, I
The system controller 12 having the ID information of D1: 1 and reading the ID information determines the connected external power source as the power capacity of 30 W based on the power capacity correspondence table of FIG. In this case, since the power capacity of the entire system is less than 40 W,
The power supply is not performed for the function that requires the insufficient power of 10 W. Therefore, in this example, the power supply control corresponding to each function is performed based on the function correspondence table according to the power supply capacity in FIG. In this case, the system controller 12
T (A) 15 is OFF, FET (B) 16 is ON, F
ET (C) 17 is set to ON, DVD of function (A) 6
The system can operate with the drive disabled.

Next, as a case 3, a battery (B) 3 (3
0W) will be described with reference to FIG. 6 when it is connected to a portable personal computer. Since the power source is the same as in Case 2, the determination of the power capacity is omitted.
In case 2, the insufficient power of 10 W is used for function (A) 6
The VD drive was made unavailable, but in case 3, the function (B) 7 requiring the same power as the function (A) was used.
The case where the PC card slot is disabled is shown. This means that you can select the function you want to use depending on the situation. In this case, the system controller 12
(A) 15 ON, FET (B) 16 OFF, FET
(C) 17 can be set to ON, and the PC card slot of function (B) 7 cannot be used to operate the system.

Next, as a case 4, a battery (C) 4 (2
0W) is connected to the portable personal computer 1 with reference to FIG. First, the ID of the power source is read using the ID information reading circuit 13 in order to determine the capacity of the power source to which the system controller 12 is connected. Battery (C) 4 has ID0:
The system controller 12 having the ID information of 1, ID1: 0 and reading it determines the connected external power source as the power capacity of 20 W based on the power capacity correspondence table of FIG. In this case, since the power capacity of the entire system is less than 40 W, power is not supplied to the function that requires the insufficient power of 20 W. Therefore, in this example, the power supply control corresponding to each function is performed based on the function correspondence table according to the power supply capacity in FIG. In this case, the system controller 1
2 turns off the FET (A) 15 and the FET (B) 1
6 can be set to OFF, the FET (C) 17 can be set to ON, and the DVD drive of function (A) 6 and the PC card slot of function (B) 7 cannot be used to operate the system.

Next, a second embodiment of the present invention will be described. Although the basic configuration of the second embodiment is the same as that of the first embodiment, an example in which the ID information reading circuit is further expanded will be described. In the above description, the ID information of the power supply capacity is 2
The signal information of the book was transmitted to the system, but the ID information inside the power source can be stored larger information if a memory such as Serial E2PROM is used, and more detailed power source information can be obtained. If the ID reading circuit of the portable personal computer is a serial bus interface for reading information (data) from the memory inside the power source, more appropriate power control can be performed. still,
In the above two embodiments, a portable personal computer has been described as an example of a portable information device. However, a multifunctional information device such as a portable digital camera or a portable CD for
It goes without saying that it can also be used for boombox and the like.

[0024]

As described above, according to the selective power supply system for a portable information device, the function of using a portable information device requiring a large capacity in the entire system is restricted even with a small capacity power source. Can be partially used. Furthermore, it is possible to provide a power source corresponding to the increase in power accompanying the high performance of portable information devices,
A power source compatible with this method can be used for portable information devices that require large capacity in the future. Therefore, since the development efficiency can be improved and the power source can be inherited and used, it is very effective for effective use of resources.

[Brief description of the drawings]

FIG. 1 is a configuration diagram of a power supply system of a portable personal computer according to the present invention.

FIG. 2 is a diagram for explaining functions corresponding to the power supply capacity of the portable personal computer according to the present invention.

FIG. 3 is a correspondence diagram of signals for determining a power supply capacity of an external power supply source.

FIG. 4 is a system configuration diagram illustrating an operation when an adapter (40W) is connected to the portable personal computer 1.

FIG. 5 is a system configuration diagram for explaining an operation when the battery (A) (30W) is connected to a portable personal computer.

FIG. 6 is a system configuration diagram for explaining an operation when a battery (B) (30W) is connected to a portable personal computer.

FIG. 7 is a system configuration diagram for explaining an operation when a battery (C) (20W) is connected to a portable personal computer.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Portable personal computer (PC) 2 Adapter A 3 Battery B 4 Battery C 6 Function (A) 7 Function (B) 8 Function (C) 12 System controller 14 FET control circuit 15 FET (A) 16 FET (B) 17 FET (C)

Claims (2)

[Claims] 1. A power supply system unit for controlling power supply to various functions provided in a portable electronic device reads each power supply capacity of each power supply resource for the portable electronic device, 1. A selective power supply system for a portable information device, comprising: a control circuit for selecting a usable function according to a power supply capacity of various functions provided in the portable information device. 2. A power supply resource for a portable electronic device is provided with a storage unit for storing information of a power supply capacity, and a power supply for controlling power supply to various functions provided in the portable electronic device. The supply system unit includes a storage information reading unit for reading each power supply capacity of each power supply resource stored in the storage unit, and a control circuit for selecting a usable function according to the power supply capacity of the various functions. A switching transistor is provided between the control circuit of the power supply system unit and the various functions to turn on / off power supply to various functions according to the selection of the control circuit. A selective power supply system for portable information devices.